AI Article Synopsis
- The study investigates how the structure of peptides affects the thermal stability of the MHC-peptide complex, focusing on the class I MHC protein HLA-B*2705 and 39 peptide variants.
- Key findings indicate that the side chain at position P9 significantly enhances the thermal stability, while other terminal groups also contribute to the overall stability by influencing hydrogen bonding.
- It highlights the complexity of structure-stability relationships, demonstrating that stability doesn't always align with binding affinity, suggesting that positions 3 and 9 are crucial for maintaining the complex's integrity.
Article Abstract
Designing synthetic vaccines from class I major histocompatibility complex (MHC)-binding antigenic peptides requires not only knowledge of the binding affinity of the designed peptide but also predicting the stability of the formed MHC-peptide complex. In order to better investigate structure-stability relationships, we have determined by circular dichroism spectroscopy the thermal stability of a class I MHC protein, HLA-B*2705, in complex with a set of 39 singly substituted peptide analogues. The influence of two anchoring side chains (P3 and P9) was studied by peptide mutation and appropriate site-directed mutagenesis of the HLA-B*2705 binding groove. The side chain at P9 is clearly the one that contributes the most to the thermal stability of the MHC-peptide complexes, as destabilization up to 25 degrees C are obtained after P9 mutation. Interestingly, structure-stability relationships do not fully mirror structure-binding relationships. As important as the C-terminal side chain are the terminal ammonium and carboxylate groups. Removal of a single H-bond between HLA-B27 and the terminal peptide moieties results in thermal destabilization up to 10 degrees C. Depending on the bound peptide and the location of the deleted H-bond, the decrease in the thermal stability of the corresponding complex is quantitatively different. The present study suggests that any peptidic amino acid at positions 3 and 9 promotes refolding of the B27-peptide complex. Once the complex is formed, the C-terminal side chain seems to play an important role for maintaining a stable complex.
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| http://dx.doi.org/10.1074/jbc.M002777200 | DOI Listing |
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